Systems and methods for positron emission tomography image reconstruction

We claim: 1. An imaging method implemented on at least one machine each of which has at least one processor and storage, the method comprising: obtaining an anatomical image of a scanning area of a subject acquired when the subject remains in a breath-hold status; obtaining positron emission tomography (PET) data of the scanning area of the subject, the PET data corresponding to a respiration signal with a plurality of respiratory phases of the subject, the respiratory phases including a first respiratory phase and a second respiratory phase; gating the PET data into a plurality of bins based on the plurality of respiratory phases of the respiration signal; reconstructing, based on the gated PET data, a plurality of gated PET images corresponding to the plurality of respiratory phases, the plurality of gated PET images including a first gated PET image corresponding to the first respiratory phase and a second gated PET image corresponding to the second respiratory phase; determining a first motion vector field between the first gated PET image and the second gated PET image; determining, based on the first motion vector field, a second motion vector field between the anatomical image and the second gated PET image; and reconstructing an attenuation corrected PET image based on the PET data, the second motion vector field, and the anatomical image, wherein the attenuation corrected PET image corresponds to a certain respiratory phase including a reference respiratory phase or an average of the plurality of respiratory phases. 2. The method of claim 1 , wherein: the breath-hold status is a deep inspiration breath-hold status, the first respiratory phase is an end-expiratory phase, and the second respiratory phase is an end-inspiratory phase, or the breath-hold status is a deep expiration breath-hold status, the first respiratory phase is the end-inspiratory phase, and the second respiratory phase is the end-expiratory phase. 3. The method of claim 1 , wherein the determining a first motion vector field between the first gated PET image and the second gated PET image further comprises: registering the first gated PET image with the second gated PET image; and determining, based on the registration between the first gated PET image and the second gated PET image, the first motion vector field. 4. The method of claim 1 , wherein the attenuation corrected PET image corresponds to the reference respiratory phase, and the reconstructing the attenuation corrected PET image based on the PET data, the second motion vector field, and the anatomical image further comprises: determining the reference respiratory phase among the plurality of respiratory phases; obtaining, among the plurality of gated PET images, a reference gated PET image corresponding to the reference respiratory phase; determining, for each of the plurality of gated PET images, a third motion vector field between the gated PET image and the reference gated PET image; reconstructing, for each of the plurality of respiratory phases, a first PET image corresponding to the respiratory phase based on the second motion vector field; transforming, for each of the plurality of respiratory phases, the first PET image corresponding to the respiratory phase to a second PET image corresponding to the reference respiratory phase based on the corresponding third motion vector field; and generating the attenuation corrected PET image corresponding to the reference respiratory phase based on the plurality of second PET images. 5. The method of claim 4 , further comprising: transforming the attenuation corrected PET image corresponding to the reference phase to an attenuation corrected PET image corresponding to one of the plurality of respiratory phases based on the corresponding third motion vector between the respiratory phase and the reference respiratory phase. 6. The method of claim 4 , wherein the reconstructing a first PET image corresponding to each of the plurality of respiratory phases based on the second motion vector field further comprises: for each gated PET image corresponding to each of the plurality of respiratory phases, determining a fourth motion vector field between the gated PET image and the second gated PET image; determining a fifth motion vector field between the gated PET image and the anatomical image based on the fourth motion vector field and the second motion vector field; correcting the anatomical image based on the fifth motion vector field to obtain a corrected anatomical image corresponding to the respiratory phase; and reconstructing a first PET image corresponding to the respiratory phase based on the gated PET data and the corrected anatomical image. 7. The method of claim 1 , wherein the attenuation corrected PET image corresponds to the average of the plurality of respiratory phases, and the reconstructing the attenuation corrected PET image based on the PET data, the second motion vector field, and the anatomical image further comprising: reconstructing, for each respiratory phase, a first PET image corresponding to the respiratory phase; and obtaining the attenuation corrected PET image corresponding to the average of the plurality of respiratory phases by summing the first images corresponding to the plurality of respiratory phases. 8. The method of claim 1 , wherein the attenuation corrected PET image corresponds to the average of the plurality of respiratory phases, and the reconstructing the attenuation corrected PET image based on the PET data, the second motion vector field, and the anatomical image further comprising: generating, for each respiratory phase, a corrected anatomical image corresponding to the respiratory phase; generating an average corrected anatomical image by summing the corrected anatomical images corresponding to the plurality of respiratory phases; and reconstructing, based on the PET data and the average corrected anatomical image, the attenuation corrected PET image corresponding to the average of the plurality of respiratory phases. 9. The method of claim 1 , wherein the determining a second motion vector field between the second gated PET image and the anatomical image further comprises: determining a plurality of candidate anatomical images based on the anatomical image and the first motion vector field; determining, for each of the candidate anatomical images, a similarity between the second gated PET image and the candidate anatomical image; identifying a highest similarity among the determined similarities; and determining, based on the identified highest similarity, the second motion vector field between the second gated PET image and the candidate anatomical image associated with the highest similarity. 10. The method of claim 1 , wherein the anatomical image is at least one of a computed tomography (CT) image or a magnetic resonance (MR) image. 11. An imaging method implemented on at least one machine each of which has at least one processor and storage, the method comprising: obtaining an anatomical image of a scanning area of a subject, the anatomical image being unaffected by respiratory motion; obtaining positron emission tomography (PET) data of the scanning area of the subject, the PET data being affected by a respiratory motion of the subject; binning the PET data into a plurality of respiratory phases of the respiratory motion of the subject, the plurality of respiratory phases including a first respiratory phase and a second respiratory phase; reconstructing, based on the binned PET data, a plurality of gated PET images; determining a target motion vector field between the anatomical image and a target gated PET image amo